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|
use async_trait::async_trait;
use futures::future::{self, FutureExt, TryFutureExt};
use futures::executor::block_on;
use std::cell::{RefCell, UnsafeCell};
use std::collections::{BinaryHeap, HashMap, hash_map};
use std::future::Future;
use std::mem::MaybeUninit;
use std::pin::Pin;
#[repr(u8)]
enum WALRingType {
#[allow(dead_code)]
Null = 0x0,
Full,
First,
Middle,
Last,
}
#[repr(packed)]
struct WALRingBlob {
crc32: u32,
rsize: u32,
rtype: WALRingType,
// payload follows
}
type WALFileId = u64;
pub type WALBytes = Box<[u8]>;
pub type WALPos = u64;
#[derive(Eq, PartialEq, Copy, Clone, Debug, Hash)]
pub struct WALRingId {
start: WALPos,
end: WALPos,
}
impl WALRingId {
pub fn empty_id() -> Self {
WALRingId { start: 0, end: 0 }
}
pub fn get_start(&self) -> WALPos {
self.start
}
pub fn get_end(&self) -> WALPos {
self.end
}
}
impl Ord for WALRingId {
fn cmp(&self, other: &WALRingId) -> std::cmp::Ordering {
other
.start
.cmp(&self.start)
.then_with(|| other.end.cmp(&self.end))
}
}
impl PartialOrd for WALRingId {
fn partial_cmp(&self, other: &WALRingId) -> Option<std::cmp::Ordering> {
Some(self.cmp(other))
}
}
pub trait Record {
fn serialize(&self) -> WALBytes;
}
impl Record for WALBytes {
fn serialize(&self) -> WALBytes { self[..].into() }
}
impl Record for String {
fn serialize(&self) -> WALBytes { self.as_bytes().into() }
}
impl Record for &str {
fn serialize(&self) -> WALBytes { self.as_bytes().into() }
}
/// the state for a WAL writer
struct WALState {
/// the first file id of WAL
first_fid: WALFileId,
/// the next position for a record, addressed in the entire WAL space
next: WALPos,
/// number of bits for a file
file_nbit: u64,
next_complete: WALPos,
io_complete: BinaryHeap<WALRingId>,
}
#[async_trait(?Send)]
pub trait WALFile {
/// Initialize the file space in [offset, offset + length) to zero.
async fn allocate(&self, offset: WALPos, length: usize) -> Result<(), ()>;
/// Write data with offset. We assume all previous `allocate`/`truncate` invocations are visible
/// if ordered earlier (should be guaranteed by most OS). Additionally, the write caused
/// by each invocation of this function should be _atomic_ (the entire single write should be
/// all or nothing).
async fn write(&self, offset: WALPos, data: WALBytes) -> Result<(), ()>;
/// Read data with offset. Return `Ok(None)` when it reaches EOF.
fn read(
&self,
offset: WALPos,
length: usize,
) -> Result<Option<WALBytes>, ()>;
/// Truncate a file to a specified length.
fn truncate(&self, length: usize) -> Result<(), ()>;
}
#[async_trait(?Send)]
pub trait WALStore {
type FileNameIter: Iterator<Item = String>;
/// Open a file given the filename, create the file if not exists when `touch` is `true`.
async fn open_file(
&self,
filename: &str,
touch: bool,
) -> Result<Box<dyn WALFile>, ()>;
/// Unlink a file given the filename.
async fn remove_file(&self, filename: String) -> Result<(), ()>;
/// Enumerate all WAL filenames. It should include all WAL files that are previously opened
/// (created) but not removed. The list could be unordered.
fn enumerate_files(&self) -> Result<Self::FileNameIter, ()>;
/// Apply the payload during recovery. An invocation of the callback waits the application for
/// redoing the given operation to ensure its state is consistent. We assume the necessary
/// changes by the payload has already been persistent when the callback returns.
fn apply_payload(
&self,
payload: WALBytes,
ringid: WALRingId,
) -> Result<(), ()>;
}
struct WALFileHandle<'a, F: WALStore> {
fid: WALFileId,
handle: &'a dyn WALFile,
pool: *const WALFilePool<F>,
}
impl<'a, F: WALStore> std::ops::Deref for WALFileHandle<'a, F> {
type Target = dyn WALFile + 'a;
fn deref(&self) -> &Self::Target { self.handle }
}
impl<'a, F: WALStore> Drop for WALFileHandle<'a, F> {
fn drop(&mut self) {
unsafe {
(&*self.pool).release_file(self.fid);
}
}
}
/// The middle layer that manages WAL file handles and invokes public trait functions to actually
/// manipulate files and their contents.
struct WALFilePool<F: WALStore> {
store: F,
handle_cache: RefCell<lru::LruCache<WALFileId, Box<dyn WALFile>>>,
handle_used: RefCell<HashMap<WALFileId, UnsafeCell<(Box<dyn WALFile>, usize)>>>,
last_write:
UnsafeCell<MaybeUninit<Pin<Box<dyn Future<Output = Result<(), ()>>>>>>,
last_peel:
UnsafeCell<MaybeUninit<Pin<Box<dyn Future<Output = Result<(), ()>>>>>>,
file_nbit: u64,
file_size: u64,
block_nbit: u64,
}
impl<F: WALStore> WALFilePool<F> {
fn new(store: F, file_nbit: u8, block_nbit: u8, cache_size: usize) -> Self {
let file_nbit = file_nbit as u64;
let block_nbit = block_nbit as u64;
WALFilePool {
store,
handle_cache: RefCell::new(lru::LruCache::new(cache_size)),
handle_used: RefCell::new(HashMap::new()),
last_write: UnsafeCell::new(MaybeUninit::new(Box::pin(
future::ready(Ok(())),
))),
last_peel: UnsafeCell::new(MaybeUninit::new(Box::pin(
future::ready(Ok(())),
))),
file_nbit,
file_size: 1 << (file_nbit as u64),
block_nbit,
}
}
fn get_fname(fid: WALFileId) -> String {
format!("{:08x}.log", fid)
}
fn get_file<'a>(
&'a self,
fid: u64,
touch: bool,
) -> impl Future<Output = Result<WALFileHandle<'a, F>, ()>> {
async move {
let pool = self as *const WALFilePool<F>;
if let Some(h) = self.handle_cache.borrow_mut().pop(&fid) {
let handle = match self.handle_used.borrow_mut().entry(fid) {
hash_map::Entry::Vacant(e) => unsafe {&*(*e.insert(UnsafeCell::new((h, 1))).get()).0},
_ => unreachable!(),
};
Ok(WALFileHandle { fid, handle, pool })
} else {
let v = unsafe{&mut *match self.handle_used.borrow_mut().entry(fid) {
hash_map::Entry::Occupied(e) => e.into_mut(),
hash_map::Entry::Vacant(e) => e.insert(
UnsafeCell::new((self.store.open_file(&Self::get_fname(fid), touch).await?, 0)))
}.get()};
v.1 += 1;
Ok(WALFileHandle { fid, handle: &*v.0, pool })
}
}
}
fn release_file(&self, fid: WALFileId) {
match self.handle_used.borrow_mut().entry(fid) {
hash_map::Entry::Occupied(e) => {
let v = unsafe{&mut *e.get().get()};
v.1 -= 1;
if v.1 == 0 {
self.handle_cache.borrow_mut().put(fid, e.remove().into_inner().0);
}
},
_ => unreachable!()
}
}
fn get_fid(&mut self, fname: &str) -> WALFileId {
scan_fmt!(fname, "{x}.log", [hex WALFileId]).unwrap()
}
fn write<'a>(
&'a mut self,
writes: Vec<(WALPos, WALBytes)>,
) -> Vec<Pin<Box<dyn Future<Output = Result<(), ()>> + 'a>>> {
let file_size = self.file_size;
let file_nbit = self.file_nbit;
let meta: Vec<(u64, u64)> = writes
.iter()
.map(|(off, w)| ((*off) >> file_nbit, w.len() as u64))
.collect();
let mut files: Vec<Pin<Box<dyn Future<Output = _> + 'a>>> = Vec::new();
for &(fid, _) in meta.iter() {
files.push(Box::pin(self.get_file(fid, true))
as Pin<Box<dyn Future<Output = _> + 'a>>)
}
let mut fid = writes[0].0 >> file_nbit;
let mut alloc_start = writes[0].0 & (self.file_size - 1);
let mut alloc_end = alloc_start + writes[0].1.len() as u64;
let last_write = unsafe {
std::mem::replace(
&mut *self.last_write.get(),
std::mem::MaybeUninit::uninit(),
)
.assume_init()
};
// pre-allocate the file space
let alloc = async move {
last_write.await?;
let mut last_h: Option<
Pin<Box<dyn Future<Output = Result<WALFileHandle<'a, F>, ()>> + 'a>>,
> = None;
for ((next_fid, wl), h) in meta.into_iter().zip(files.into_iter()) {
if let Some(lh) = last_h.take() {
if next_fid != fid {
lh.await?
.allocate(
alloc_start,
(alloc_end - alloc_start) as usize,
)
.await?;
last_h = Some(h);
alloc_start = 0;
alloc_end = alloc_start + wl;
fid = next_fid;
} else {
last_h = Some(lh);
alloc_end += wl;
}
} else {
last_h = Some(h);
}
}
if let Some(lh) = last_h {
lh.await?
.allocate(alloc_start, (alloc_end - alloc_start) as usize)
.await?
}
Ok(())
};
let mut res = Vec::new();
let mut prev = Box::pin(alloc) as Pin<Box<dyn Future<Output = _> + 'a>>;
for (off, w) in writes.into_iter() {
let f = self.get_file(off >> file_nbit, true);
let w = (async move {
prev.await?;
f.await?.write(off & (file_size - 1), w).await
})
.shared();
prev = Box::pin(w.clone());
res.push(Box::pin(w) as Pin<Box<dyn Future<Output = _> + 'a>>)
}
unsafe {
(*self.last_write.get()) = MaybeUninit::new(std::mem::transmute::<
Pin<Box<dyn Future<Output = _> + 'a>>,
Pin<Box<dyn Future<Output = _> + 'static>>,
>(prev))
}
res
}
fn remove_files<'a>(
&'a mut self,
fid_s: u64,
fid_e: u64,
) -> impl Future<Output = Result<(), ()>> + 'a {
let last_peel = unsafe {
std::mem::replace(
&mut *self.last_peel.get(),
std::mem::MaybeUninit::uninit(),
)
.assume_init()
};
let mut removes = Vec::new();
for fid in fid_s..fid_e {
removes.push(self.store.remove_file(Self::get_fname(fid))
as Pin<Box<dyn Future<Output = _> + 'a>>)
}
let p = async move {
last_peel.await?;
for r in removes.into_iter() {
r.await?
}
Ok(())
}
.shared();
unsafe {
(*self.last_peel.get()) =
MaybeUninit::new(std::mem::transmute(Box::pin(p.clone())
as Pin<Box<dyn Future<Output = _> + 'a>>))
}
p
}
fn in_use_len(&self) -> usize {
self.handle_used.borrow().len()
}
fn reset(&mut self) {
self.handle_cache.borrow_mut().clear();
self.handle_used.borrow_mut().clear()
}
}
pub struct WALWriter<F: WALStore> {
state: WALState,
file_pool: WALFilePool<F>,
block_buffer: WALBytes,
block_size: u32,
msize: usize,
}
impl<F: WALStore> WALWriter<F> {
fn new(state: WALState, file_pool: WALFilePool<F>) -> Self {
let mut b = Vec::new();
let block_size = 1 << file_pool.block_nbit as u32;
let msize = std::mem::size_of::<WALRingBlob>();
b.resize(block_size as usize, 0);
WALWriter {
state,
file_pool,
block_buffer: b.into_boxed_slice(),
block_size,
msize,
}
}
/// Submit a sequence of records to WAL. It returns a vector of futures, each of which
/// corresponds to one record. When a future resolves to `WALRingId`, it is guaranteed the
/// record is already logged. Then, after finalizing the changes encoded by that record to
/// the persistent storage, the caller can recycle the WAL files by invoking the given
/// `peel` with the given `WALRingId`s.
pub fn grow<'a, R: Record + 'a>(
&'a mut self,
records: Vec<R>,
) -> Vec<impl Future<Output = Result<(R, WALRingId), ()>> + 'a> {
let mut res = Vec::new();
let mut writes = Vec::new();
let msize = self.msize as u32;
// the global offest of the begining of the block
// the start of the unwritten data
let mut bbuff_start = self.state.next as u32 & (self.block_size - 1);
// the end of the unwritten data
let mut bbuff_cur = bbuff_start;
for rec in records.iter() {
let bytes = rec.serialize();
let mut rec = &bytes[..];
let mut rsize = rec.len() as u32;
let mut ring_start = None;
while rsize > 0 {
let remain = self.block_size - bbuff_cur;
if remain > msize {
let d = remain - msize;
let rs0 =
self.state.next + (bbuff_cur - bbuff_start) as u64;
let blob = unsafe {
std::mem::transmute::<*mut u8, &mut WALRingBlob>(
(&mut self.block_buffer[bbuff_cur as usize..])
.as_mut_ptr(),
)
};
bbuff_cur += msize;
if d >= rsize {
// the remaining rec fits in the block
let payload = rec;
blob.crc32 = crc::crc32::checksum_ieee(payload);
blob.rsize = rsize;
let (rs, rt) = if let Some(rs) = ring_start.take() {
(rs, WALRingType::Last)
} else {
(rs0, WALRingType::Full)
};
blob.rtype = rt;
&mut self.block_buffer[bbuff_cur as usize..
bbuff_cur as usize + payload.len()]
.copy_from_slice(payload);
bbuff_cur += rsize;
rsize = 0;
let end =
self.state.next + (bbuff_cur - bbuff_start) as u64;
res.push((WALRingId { start: rs, end }, Vec::new()));
} else {
// the remaining block can only accommodate partial rec
let payload = &rec[..d as usize];
blob.crc32 = crc::crc32::checksum_ieee(payload);
blob.rsize = d;
blob.rtype = if ring_start.is_some() {
WALRingType::Middle
} else {
ring_start = Some(rs0);
WALRingType::First
};
&mut self.block_buffer[bbuff_cur as usize..
bbuff_cur as usize + payload.len()]
.copy_from_slice(payload);
bbuff_cur += d;
rsize -= d;
rec = &rec[d as usize..];
}
} else {
// add padding space by moving the point to the end of the block
bbuff_cur = self.block_size;
}
if bbuff_cur == self.block_size {
writes.push((
self.state.next,
self.block_buffer[bbuff_start as usize..]
.to_vec()
.into_boxed_slice(),
));
self.state.next += (self.block_size - bbuff_start) as u64;
bbuff_start = 0;
bbuff_cur = 0;
}
}
}
if bbuff_cur > bbuff_start {
writes.push((
self.state.next,
self.block_buffer[bbuff_start as usize..bbuff_cur as usize]
.to_vec()
.into_boxed_slice(),
));
self.state.next += (bbuff_cur - bbuff_start) as u64;
}
// mark the block info for each record
let mut i = 0;
'outer: for (j, (off, w)) in writes.iter().enumerate() {
let blk_s = *off;
let blk_e = blk_s + w.len() as u64;
while res[i].0.end <= blk_s {
i += 1;
if i >= res.len() {
break 'outer;
}
}
while res[i].0.start < blk_e {
res[i].1.push(j);
if res[i].0.end >= blk_e {
break;
}
i += 1;
if i >= res.len() {
break 'outer;
}
}
}
let writes: Vec<future::Shared<_>> = self
.file_pool
.write(writes)
.into_iter()
.map(move |f| async move { f.await }.shared())
.collect();
let res = res
.into_iter()
.zip(records.into_iter())
.map(|((ringid, blks), rec)| {
future::try_join_all(
blks.into_iter().map(|idx| writes[idx].clone()),
)
.or_else(|_| future::ready(Err(())))
.and_then(move |_| future::ready(Ok((rec, ringid))))
})
.collect();
res
}
/// Inform the `WALWriter` that some data writes are complete so that it could automatically
/// remove obsolete WAL files. The given list of `WALRingId` does not need to be ordered and
/// could be of arbitrary length.
pub fn peel<'a, T: AsRef<[WALRingId]>>(
&'a mut self,
records: T,
) -> impl Future<Output = Result<(), ()>> + 'a {
let msize = self.msize as u64;
let block_size = self.block_size as u64;
let state = &mut self.state;
for rec in records.as_ref() {
state.io_complete.push(*rec);
}
let orig_fid = state.first_fid;
while let Some(s) =
state.io_complete.peek().and_then(|&e| Some(e.start))
{
if s != state.next_complete {
break;
}
let mut m = state.io_complete.pop().unwrap();
let block_remain = block_size - (m.end & (block_size - 1));
if block_remain <= msize as u64 {
m.end += block_remain
}
state.next_complete = m.end
}
let next_fid = state.next_complete >> state.file_nbit;
state.first_fid = next_fid;
self.file_pool.remove_files(orig_fid, next_fid)
}
pub fn file_pool_in_use(&self) -> usize { self.file_pool.in_use_len() }
}
#[derive(Copy, Clone)]
pub enum RecoverPolicy {
/// all checksums must be correct, otherwise recovery fails
Strict,
/// stop recovering when hitting the first corrupted record
BestEffort
}
pub struct WALLoader {
file_nbit: u8,
block_nbit: u8,
cache_size: usize,
recover_policy: RecoverPolicy,
}
impl WALLoader {
pub fn new() -> Self {
WALLoader {
file_nbit: 22, // 4MB
block_nbit: 15, // 32KB,
cache_size: 16,
recover_policy: RecoverPolicy::Strict
}
}
pub fn file_nbit(&mut self, v: u8) -> &mut Self {
self.file_nbit = v;
self
}
pub fn block_nbit(&mut self, v: u8) -> &mut Self {
self.block_nbit = v;
self
}
pub fn cache_size(&mut self, v: usize) -> &mut Self {
self.cache_size = v;
self
}
pub fn recover_policy(&mut self, p: RecoverPolicy) -> &mut Self {
self.recover_policy = p;
self
}
fn verify_checksum(&self, data: &[u8], checksum: u32) -> Result<bool, ()> {
if checksum == crc::crc32::checksum_ieee(data) {
Ok(true)
} else {
match self.recover_policy {
RecoverPolicy::Strict => Err(()),
RecoverPolicy::BestEffort => Ok(false),
}
}
}
/// Recover by reading the WAL files.
pub fn load<F: WALStore>(&self, store: F) -> Result<WALWriter<F>, ()> {
let msize = std::mem::size_of::<WALRingBlob>();
assert!(self.file_nbit > self.block_nbit);
assert!(msize < 1 << self.block_nbit);
let filename_fmt = regex::Regex::new(r"[0-9a-f]+\.log").unwrap();
let mut file_pool = WALFilePool::new(
store,
self.file_nbit,
self.block_nbit,
self.cache_size,
);
let block_size = 1 << file_pool.block_nbit;
let mut logfiles: Vec<String> = file_pool
.store
.enumerate_files()?
.filter(|f| filename_fmt.is_match(f))
.collect();
// TODO: check for missing logfiles
logfiles.sort();
let mut chunks = None;
let mut skip = false;
for fname in logfiles.into_iter() {
let fid = file_pool.get_fid(&fname);
let f = block_on(file_pool.get_file(fid, false))?;
let mut off = 0;
if skip {
f.truncate(0)?;
block_on(file_pool.store.remove_file(fname))?;
continue
}
while let Some(header_raw) = f.read(off, msize as usize)? {
let ringid_start = (fid << file_pool.file_nbit) + off;
off += msize as u64;
let header = unsafe {
std::mem::transmute::<*const u8, &WALRingBlob>(
header_raw.as_ptr(),
)
};
let rsize = header.rsize;
match header.rtype {
WALRingType::Full => {
assert!(chunks.is_none());
let payload = f.read(off, rsize as usize)?.ok_or(())?;
// TODO: improve the behavior when CRC32 fails
if !self.verify_checksum(&payload, header.crc32)? {
skip = true;
break
}
off += rsize as u64;
file_pool.store.apply_payload(
payload,
WALRingId {
start: ringid_start,
end: (fid << file_pool.file_nbit) + off,
},
)?;
}
WALRingType::First => {
assert!(chunks.is_none());
let chunk = f.read(off, rsize as usize)?.ok_or(())?;
if !self.verify_checksum(&chunk, header.crc32)? {
skip = true;
break
}
chunks = Some((vec![chunk], ringid_start));
off += rsize as u64;
}
WALRingType::Middle => {
if let Some((chunks, _)) = &mut chunks {
let chunk = f.read(off, rsize as usize)?.ok_or(())?;
if !self.verify_checksum(&chunk, header.crc32)? {
skip = true;
break
}
chunks.push(chunk);
} // otherwise ignore the leftover
off += rsize as u64;
}
WALRingType::Last => {
if let Some((mut chunks, ringid_start)) = chunks.take()
{
let chunk = f.read(off, rsize as usize)?.ok_or(())?;
off += rsize as u64;
if !self.verify_checksum(&chunk, header.crc32)? {
skip = true;
break
}
chunks.push(chunk);
let mut payload = Vec::new();
payload.resize(
chunks.iter().fold(0, |acc, v| acc + v.len()),
0,
);
let mut ps = &mut payload[..];
for c in chunks {
ps[..c.len()].copy_from_slice(&*c);
ps = &mut ps[c.len()..];
}
file_pool.store.apply_payload(
payload.into_boxed_slice(),
WALRingId {
start: ringid_start,
end: (fid << file_pool.file_nbit) + off,
},
)?;
}
// otherwise ignore the leftover
else {
off += rsize as u64;
}
}
WALRingType::Null => break,
}
let block_remain = block_size - (off & (block_size - 1));
if block_remain <= msize as u64 {
off += block_remain;
}
}
f.truncate(0)?;
block_on(file_pool.store.remove_file(fname))?;
}
file_pool.reset();
Ok(WALWriter::new(
WALState {
first_fid: 0,
next: 0,
file_nbit: file_pool.file_nbit,
next_complete: 0,
io_complete: BinaryHeap::new(),
},
file_pool,
))
}
}
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